KR100935025B1 - Auto contracting clamp using spring elasticity - Google Patents

Abstract

PURPOSE: An auto-fastening clamp using the elasticity of a spring is provided to fix a notch plate to the clamp by the elastic restoring force of a spring. CONSTITUTION: An auto-fastening clamp using the elasticity of a spring comprises a notch plate(100), a clamp(200), a lock pin(300), and a spring case(400). The notch plate has a through hole(110), an incline(130), and a projection(120). The clamp has a first lock pin hole(220) and a second lock pin hole(230) that face each other and are formed on the front part of supports(250). The supports are protruded by bending both ends of a contact surface(240) which are adhered to the notch plate. The lock pin has a projection part(320) and a first spring fixing part(330). The projection part is inserted into the first lock pin hole of the clamp and hung from the second lock pin hole. The first spring fixing part fixes one side of a spring. The spring case is formed in parallel with the lock pin for covering the spring and has a second spring fixing part(410). The second spring fixing part fixes the other side of the spring.

Description

Auto contracting clamp using spring elasticity.

The present invention relates to an automatic fastening clamp using spring elasticity, and more particularly, a mega beam connecting a PSC shift and a PSC shift so as to construct a formwork for placing slab concrete on the upper part of the PSC shift. When the notch plate is inserted into the space formed inside the contact surface of the clamp and the force is removed after applying force in the direction of the first lock pin hole to the protrusion and inserting the notch plate into the clamp. The present invention relates to a self-locking clamp using spring elasticity in which a protrusion is automatically returned by an elastic restoring force of an extended spring or an elastic restoring force of a compressed spring to securely fix the notch plate to the clamp.

Conventional clamps have been applied to many places in the bridge construction site, but the most commonly applied was applied to the process of connecting the formwork and PSC shift for the concrete placing of the PSC shift deck.

The process of the conventional devices is a method that the operator transports dozens of clamps to lock the notch plate using the lock pin at the work site, and finally fasten the bolt to the PSC shift.

Conventional devices frequently have a problem in that the fastening state is loosened due to the flow of the lock pin or the clamp and the lock pin are disassembled during transportation.

In addition, even if it is finally fixed by using a bolt on the PSC shift, the coupling force between the lock pin and the clamp may be loosened if the operator does not perform the final inspection closely. It was also a potential risk to the safety of field workers.

After installing the angle on the clamp on the clamp and installing the angle of climb and plywood on the site, there is no way to visually check the fastening state of the lock pins, even though it is firmly fastened at the beginning of the work. The load-bearing work is done a lot above, so the locking force of the lock pin is very weak.

When the lock pin falls out of the clamp and falls down, it not only threatens the safety of the worker working under the bridge, but also the workability is remarkably deteriorated since the process of disassembling and assembling the temporary material of the bridge top plate must be repeated.

If the locking pin is not released from the clamp and the coupling force is weakened, when the process proceeds and the load applied to the clamp increases, the slab deflection occurs or, in the case of severe casting, all the temporary materials may collapse.

In particular, when the slope of the road surface among the types of bridge construction occurs, that is, the altitude of both ends of the bridge is wrong, the conventional device is likely to be loosened due to the action of gravity.

Due to the nature of Korea's topography, many bridge construction sites have different heights at both ends of the bridge. Therefore, conventional devices are inevitably affected by gravity and are always exposed to the risk that the connection is broken when the connection is weakened or severely severed.

Accordingly, the present invention has been made to solve the above conventional problems,

It is an object of the present invention to easily install a mega beam connecting the PSC shift and the PSC shift to a clamp integrally connected with the notch plate so that the formwork for placing slab concrete on the upper part of the PSC shift can be constructed.

Another object of the present invention is to increase the elastic restoring force of the spring increased when the notch plate is inserted into the space formed inside the contact surface of the clamp and the force is removed after applying a force in the direction of the first lock pin hole to the protrusion to insert the notch plate in the clamp. The projections automatically return to secure the notch plate to the clamp.

Another object of the present invention is to apply the force in the direction of the first lock pin hole to the clamp in order to insert the notch plate into the space formed inside the contact surface of the clamp and to remove the force when the force is removed The projections automatically return to secure the notch plate to the clamp.

Another object of the present invention is to increase the tensile force by forming a force in the transverse direction, longitudinal direction or oblique direction to the body of the notch plate.

In order to achieve the problem to be solved by the present invention,

Self-locking clamp using the spring elastic of the present invention,

In the formwork clamp for the slab concrete pouring for bridges,

A notch plate 100 having a through hole 110 formed at an upper side thereof, bent to form an inclined surface 130 at a lower portion of the center, and forming a protrusion 120 formed at the center of the end portion;

A hole smaller than the first lock pin hole 220 and the first lock pin hole are opposed to each other in front of the support 250 protruding by bending both ends of the contact surface 240 in close contact with the central lower back surface of the notch plate 100. A clamp 200 forming a second lock pin hole 230 to be formed;

A protrusion 320 is formed on the lock pin body 310 so as to be inserted into the first lock pin hole perforated by one side support of the clamp and caught by the second lock pin hole, and the first spring fixing part 330 is formed on either side. A lock pin 300 formed to fix one side of the spring 340 to the first spring fixing part;

It is formed in parallel with the lock pin to surround the spring, the second spring fixing part 410 is configured to fix the other side of the spring, the spring case 400 is configured by fixing one end and the other end to the support It characterized by comprising;

Self-locking clamp using spring elasticity according to the present invention,

The mega beam connecting the PSC shift and the PSC shift can be easily installed in the clamp integrally with the notch plate so that the formwork for placing slab concrete on the upper part of the PSC shift can be constructed.

In addition, after applying a force in the direction of the first lock pin hole to the protrusion in order to insert the notch plate in the clamp, the elastic restoring force or the compressed spring of the increased spring when the notch plate is inserted into the space formed inside the contact surface of the clamp and the force is removed. The protrusion is automatically returned by the elastic restoring force of the notch plate to provide an effect of firmly fixing the notch plate to the clamp.

In addition, it is possible to increase the tensile force by forming a force in the transverse direction, longitudinal direction or oblique direction in the body of the notch plate.

Self-locking clamp using a spring elastic according to an embodiment of the present invention for achieving the above object,

In the formwork clamp for the slab concrete pouring for bridges,

A notch plate 100 having a through hole 110 formed at an upper side thereof, bent to form an inclined surface 130 at a lower portion of the center, and forming a protrusion 120 formed at the center of the end portion;

A hole smaller than the first lock pin hole 220 and the first lock pin hole are opposed to each other in front of the support 250 protruding by bending both ends of the contact surface 240 in close contact with the central lower back surface of the notch plate 100. A clamp 200 forming a second lock pin hole 230 to be formed;

A protrusion 320 is formed on the lock pin body 310 so as to be inserted into the first lock pin hole perforated by one side support of the clamp and caught by the second lock pin hole, and the first spring fixing part 330 is formed on either side. A lock pin 300 formed to fix one side of the spring 340 to the first spring fixing part;

It is formed in parallel with the lock pin to surround the spring, the second spring fixing part 410 is configured to fix the other side of the spring, the spring case 400 is configured by fixing one end and the other end to the support It characterized by comprising;

Self-locking clamp using the spring elastic of the present invention,

In the formwork clamp for the slab concrete pouring for bridges,

A notch plate 100 having a through hole 110 formed at an upper side thereof, bent to form an inclined surface 130 at a lower portion of the center, and forming a protrusion 120 formed at the center of the end portion;

The first lock pin hole 220 and the second lock pin hole 230 are opposed to each other in front of the support 250 protruding by bending both ends of the contact surface 240 in close contact with the center lower rear surface of the notch plate 100. A clamp 200 to form;

A protrusion 320 inserted into the first lock pin hole drilled in one side support of the clamp and configured in the lock pin body 310 to be caught by the second lock pin hole;

A second protrusion 360 configured to be smaller than a thickness of the protrusion on one side of the protrusion,

A lock pin 300 formed on one side of the second protrusion part and including a spring insertion groove 370 into which a part of the spring 340 is inserted;

It is formed in parallel with the lock pin to surround the spring, the spring case 400 is fixed to any one end and the other end to the support; characterized in that it comprises a.

At this time, the notch plate according to an embodiment of the present invention,

When the notch plate is inserted into the space formed inside the contact surface of the clamp after the force is applied to the protrusion in the direction of the first lock pin hole to insert the clamp 200, the elastic restoring force of the spring 340 is increased when the force is removed. As a result, the protruding portion is returned to firmly fix the notch plate to the clamp.

At this time, the notch plate according to another embodiment of the present invention,

When the notch plate is inserted into the space formed inside the contact surface of the clamp after the force is applied in the direction of the first lock pin hole to the clamp 200, and the elastic restoring force of the compressed spring 340 is removed when the force is removed. The protrusions are automatically returned to secure the notch plate to the clamp.

At this time, the spring case 400 according to another embodiment of the present invention,

The end of the first lock pin hole direction is blocked, the end of the second lock pin hole direction is characterized in that the second protrusion is opened to be inserted into the interior.

At this time, the notch plate 100,

Characterized in that forming at least one force 140 in the longitudinal direction or longitudinal direction or diagonal direction.

In addition, the self-locking clamp using the spring elasticity according to an embodiment of the present invention,

Any one side of the lock pin 300 is characterized by constituting the foreign matter blocking unit 350 is formed to prevent foreign matter from flowing into the spring case.

At this time, the shape of the spring case 400,

It is characterized in that the semi-circular or square.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the self-locking clamp using the spring elasticity of the present invention.

1 is an exploded perspective view of a self-locking clamp using a spring elasticity according to an embodiment of the present invention, Figure 2 is a perspective view before the notch plate coupling of the self-locking clamp using a spring elasticity according to an embodiment of the present invention 3 is a perspective view after the notch plate coupling of the self-locking clamp using the spring elasticity according to an embodiment of the present invention, Figure 4 is a notch plate of the self-locking clamp using the spring elasticity according to an embodiment of the present invention 5 is a plan view before coupling, Figure 5 is a plan view after the notch plate coupling of the self-locking clamp using a spring elasticity according to an embodiment of the present invention.

As shown in Figure 1 to 5, the self-locking clamp using the spring elasticity of the present invention,

In the formwork clamp for the slab concrete pouring for bridges,

A notch plate 100 having a through hole 110 formed at an upper side thereof, bent to form an inclined surface 130 at a lower portion of the center, and forming a protrusion 120 formed at the center of the end portion;

A hole smaller than the first lock pin hole 220 and the first lock pin hole are opposed to each other in front of the support 250 protruding by bending both ends of the contact surface 240 in close contact with the central lower back surface of the notch plate 100. A clamp 200 forming a second lock pin hole 230 to be formed;

A protrusion 320 is formed on the lock pin body 310 so as to be inserted into the first lock pin hole perforated by one side support of the clamp and caught by the second lock pin hole, and the first spring fixing part 330 is formed on either side. A lock pin 300 formed to fix one side of the spring 340 to the first spring fixing part;

It is formed in parallel with the lock pin to surround the spring, the second spring fixing part 410 is configured to fix the other side of the spring, the spring case 400 is configured by fixing one end and the other end to the support It is configured to include.

In general, the mega beam is fixed to the clamp for slab casting between the PSC beam and the PSC beam, a plurality of shells installed at regular intervals to the top of the mega beam, and the concrete is placed on top of the beam Formwork is installed so that the bottom plate (plywood) is formed.

That is, in order to install a mega beam connecting the PSC beam and the PSC beam, the clamp of the present invention for fixing the mega beam to the sidewall of the PSC beam is provided.

The clamp 200 is coupled to the notch plate 100 installed on the upper side of the PSC beam and is fixed by the lock pin 300. The notch plate is generally rectangular and has a width above the PSC beam at the top of the PSC beam. Through holes 110 are formed to be inserted into bolts having threads formed at both ends of the long length and fixed by nuts.

In addition, the inclined surface 130 is bent to form a central lower portion of the notch plate 100 to form a protrusion 120 formed to protrude in the center of the end portion.

In addition, it is characterized in that at least one force beam 140 is formed in the longitudinal direction, the longitudinal direction or the diagonal direction.

The force ribs are configured to increase the tensile force in the center of the notch plate, and form protrusions. These protrusions are defined as force ribs.

The reason why the force is needed as described above is a problem in the tensile force when the notch plate is bent.

Accordingly, in order to solve the tension problem, the thickness of the notch plate is formed to be thick, but if the thickness is formed to be thick, the manufacturing cost goes up and the thickness is limited due to the limitation of the clamp interval.

Therefore, by constructing a force in the notch plate as described above to make up the tensile force.

The inclined surface is bent to form a lower side of the notch plate to form a protrusion 120 to protrude in the longitudinal direction in the center of the end portion is fixed by the lock pin is to be separated when the lock pin is removed.

The clamp 200 mounted to the rear of the lower inclined surface of the notch plate is formed with a contact surface 240 that can be in close contact with the rear surface of the lower portion formed with the inclined surface of the notch plate, the size of the contact surface is different from each other The first lock pin hole 220 and the second lock pin hole 230 forming a smaller hole than the first lock pin hole are formed, and both ends of the contact surface are bent to each other to form a support 250 to protrude forward. .

The contact surface of the clamp formed as described above is inserted into the rear of the notch plate and contacted, and then the lock pin is inserted into the first lock pin hole and the second lock pin hole formed in the support projecting forward to fix the clamp to the notch plate.

The lock pin 300 is inserted into the first lock pin hole perforated in one side support of the clamp is formed with a protrusion 320 configured in the lock pin body 310 to be caught in the second lock pin hole, the first spring on either side The fixing part 330 is formed and is configured to fix either side of the spring 340 to the first spring fixing part.

On the other hand, according to an additional aspect is to configure the foreign matter blocking portion 350 formed to prevent foreign matter from entering into the spring case on any one side of the lock pin (300).

Because the place where the clamp of the present invention is installed is a construction site, when various dusts or foreign substances are introduced into the spring case, the operation of the spring inserted into the spring case may be inhibited.

The spring case 400 is formed in parallel with the lock pin to surround the spring, the second spring fixing portion 410 for fixing the other side of the spring is configured.

In addition, the spring case is configured by fixing one end and the other end to the support, for example, one end of the spring case is inserted into the first lock pin hole configured in the support and the other end to the end of the second lock pin hole Position and weld the two sides of the spring case (part in contact with the support) to form a spring case from the support.

Next will be described the operation principle of the self-locking clamp using the spring elasticity according to an embodiment of the present invention.

When the operator applies a force in the direction of the first lock pin hole to the protrusion to insert the notch plate into the clamp 200, the first spring fixing member moves in an outward direction of the clamp, and a spring fixed to the first spring fixing member ( At the same time as the 340 is extended, a space (space in which the protrusion is located) formed inside the contact surface of the clamp is formed wide, thereby inserting the notch plate into the corresponding space.

When the operator removes the force after the insertion of the notch plate, the protrusion is automatically returned to its original position by the elastic restoring force of the extended spring 340, and the first spring fixing part moves in the inner direction of the clamp.

Through the above operation, the upper end of the protrusion of the notch plate is located at the lower end of the lock pin body, and the inclined surface of the notch plate is positioned above the contact surface, and the notch plate is firmly fixed to the clamp.

Figure 6 is an exploded perspective view of the self-locking clamp using a spring elasticity according to another embodiment of the present invention, Figure 7 is a notch plate before coupling of the self-locking clamp using a spring elasticity according to another embodiment of the present invention 8 is a perspective view after the notch plate coupling of the automatic fastening clamp using the spring elasticity according to another embodiment of the present invention, Figure 9 is an automatic fastening type using the spring elasticity according to another embodiment of the present invention 10 is a plan view before the notch plate coupling of the clamp, Figure 10 is a plan view after the notch plate coupling of the self-locking clamp using a spring elasticity according to another embodiment of the present invention.

6 to 10, the self-locking clamp using the spring elasticity according to another embodiment of the present invention,

In the formwork clamp for the slab concrete pouring for bridges,

A notch plate 100 having a through hole 110 formed at an upper side thereof, bent to form an inclined surface 130 at a lower portion of the center, and forming a protrusion 120 formed at the center of the end portion;

The first lock pin hole 220 and the second lock pin hole 230 are opposed to each other in front of the support 250 protruding by bending both ends of the contact surface 240 in close contact with the center lower rear surface of the notch plate 100. A clamp 200 to form;

A protrusion 320 inserted into the first lock pin hole drilled in one side support of the clamp and configured in the lock pin body 310 to be caught by the second lock pin hole;

A second protrusion 360 configured to be smaller than a thickness of the protrusion on one side of the protrusion,

A lock pin (300) formed on one side of the second protrusion and including a spring insertion groove (370) for inserting a portion of the spring;

It is formed in parallel with the lock pin to surround the spring, the spring case 400 is fixed to any one end and the other end to the support; is configured to include.

The lock pin 300 is inserted into the first lock pin hole perforated in one side support of the clamp to form a protrusion 320 configured on the lock pin body 310 to be caught by the second lock pin hole, any one side of the protrusion The second protrusion 360 is formed to be smaller than the thickness of the protrusion.

The reason why the second protrusion is formed to be smaller than the thickness of the protrusion is that the second protrusion is inserted into the spring case when the operator exerts a force on the protrusion.

In addition, a spring insertion groove 370 is formed on either side of the second protrusion to insert a portion of the spring.

The spring case 400 is formed in parallel with the lock pin so as to surround the remaining portion of the spring is inserted into the spring insertion groove, it is configured by fixing one end and the other end to the support.

For example, the spring case inserts one end of the spring case into the first lock pin hole configured in the support, inserts the other end into the second lock pin hole, and welds both sides of the spring case (portion in contact with the support). The spring case is formed so as not to be separated from the support.

At this time, the spring case 400 is the end of the first lock pin hole direction is blocked, the end of the second lock pin hole direction is characterized in that the second protrusion is opened to be inserted into the interior.

Because, when the force is applied to the protrusion by the operator, if the end of the first lock pin hole direction of the spring case is not blocked, the spring may not be compressed and the protrusion may return to its original position automatically by the restoring force of the spring when the force is removed. Because there is not.

Next will be described the operation principle of the self-locking clamp using the spring elasticity according to another embodiment of the present invention.

When the operator applies a force in the direction of the first lock pin hole to the protrusion to insert the notch plate into the clamp 200, the second protrusion 360 moves in the direction of the first lock pin hole, and the second protrusion is inside the spring case. As the spring inserted into the spring case is compressed, a space (space in which the protrusion is located) formed inside the contact surface of the clamp is broadly formed to insert the notch plate into the corresponding space.

When the operator removes the force after inserting the notch plate, the protrusion and the second protrusion automatically return to their original positions by the elastic restoring force of the compressed spring 340.

Through the above operation, the upper end of the protrusion of the notch plate is located at the lower end of the lock pin body, and the inclined surface of the notch plate is positioned above the contact surface, and the notch plate is firmly fixed to the clamp.

Through the configuration and operation as described above, in order to insert the notch plate into the clamp, the force is applied to the protrusion in the direction of the first lock pin hole, and then the notch plate is inserted into the space formed inside the contact surface of the clamp. The protrusion is automatically returned by the elastic restoring force or the elastic restoring force of the compressed spring to provide the effect of firmly fixing the notch plate to the clamp.

Those skilled in the art to which the present invention pertains as described above may understand that the present invention may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not restrictive.

The scope of the invention is indicated by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the invention. do.

Self-locking clamp using spring elasticity according to the present invention,

When the notch plate is applied to the clamp in the direction of the first lock pin hole to insert the notch plate, the elastic restoring force of the spring increased when the notch plate is inserted into the space formed inside the contact surface of the clamp and the force is removed. The projecting part is automatically returned by the restoring force, thereby providing the effect of firmly fixing the notch plate to the clamp, and thus will be widely used in the field of clamp support for formwork.

1 is an exploded perspective view of a self-locking clamp using spring elasticity according to an embodiment of the present invention.

Figure 2 is a perspective view before the notch plate coupling of the self-locking clamp using spring elasticity according to an embodiment of the present invention.

Figure 3 is a perspective view after the notch plate coupling of the self-locking clamp using the spring elasticity according to an embodiment of the present invention.

Figure 4 is a plan view before the notch plate coupling of the self-locking clamp using the spring elasticity according to an embodiment of the present invention.

5 is a plan view after the notch plate coupling of the self-locking clamp using the spring elasticity according to an embodiment of the present invention.

Figure 6 is an exploded perspective view of the self-locking clamp using the spring elasticity according to another embodiment of the present invention.

Figure 7 is a perspective view before the notch plate coupling of the self-locking clamp using spring elasticity according to another embodiment of the present invention.

Figure 8 is a perspective view after the notch plate coupling of the self-locking clamp using spring elasticity according to another embodiment of the present invention.

9 is a plan view before coupling the notch plate of the self-locking clamp using a spring elasticity according to another embodiment of the present invention.

10 is a plan view after the notch plate coupling of the self-locking clamp using the spring elasticity according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: notch plate

110: through

120: projection

130: slope

200: clamp

220: first lock pin hole

230: second lock pin hole

240: contact surface

250 support

300: lock pin

310: the lock pin body

320: protrusion

330: First Spring Government

340: spring

350: foreign matter blocking part

360: second protrusion

370: spring insertion groove

400: Spring Case

410: Second Spring Government

Claims (8)

In the formwork clamp for the slab concrete pouring for bridges, A notch plate 100 having a through hole 110 formed at an upper side thereof, bent to form an inclined surface 130 at a lower portion of the center, and forming a protrusion 120 formed at the center of the end portion; A hole smaller than the first lock pin hole 220 and the first lock pin hole are opposed to each other in front of the support 250 protruding by bending both ends of the contact surface 240 in close contact with the central lower back surface of the notch plate 100. A clamp 200 forming a second lock pin hole 230 to be formed; A protrusion 320 is formed on the lock pin body 310 so as to be inserted into the first lock pin hole perforated by one side support of the clamp and caught by the second lock pin hole, and the first spring fixing part 330 is formed on either side. A lock pin 300 formed to fix one side of the spring 340 to the first spring fixing part; It is formed in parallel with the lock pin to surround the spring, the second spring fixing part 410 is configured to fix the other side of the spring, the spring case 400 is configured by fixing one end and the other end to the support Automatic fastening clamp using the spring elasticity characterized in that it comprises a. In the formwork clamp for the slab concrete pouring for bridges, A notch plate 100 having a through hole 110 formed at an upper side thereof, bent to form an inclined surface 130 at a lower portion of the center, and forming a protrusion 120 formed at the center of the end portion; The first lock pin hole 220 and the second lock pin hole 230 are opposed to each other in front of the support 250 protruding by bending both ends of the contact surface 240 in close contact with the center lower rear surface of the notch plate 100. A clamp 200 to form; A protrusion 320 inserted into the first lock pin hole drilled in one side support of the clamp and configured in the lock pin body 310 to be caught by the second lock pin hole; A second protrusion 360 configured to be smaller than a thickness of the protrusion on one side of the protrusion, A lock pin 300 formed on one side of the second protrusion part and including a spring insertion groove 370 into which a part of the spring 340 is inserted; It is formed in parallel with the lock pin to surround the spring, the spring case 400 is configured to fix one end and the other end to the support; Self-locking clamp using a spring elasticity comprising a. The method of claim 1, The notch plate, When the notch plate is inserted into the space formed inside the contact surface of the clamp after the force is applied to the protrusion in the direction of the first lock pin hole to insert the clamp 200, the elastic restoring force of the spring 340 is increased when the force is removed. The self-locking clamp using spring elasticity, characterized in that the protrusion is returned to secure the notch plate to the clamp. The method of claim 2, The notch plate, When the notch plate is inserted into the space formed inside the contact surface of the clamp after the force is applied in the direction of the first lock pin hole to the clamp 200, and the elastic restoring force of the compressed spring 340 is removed when the force is removed. The self-locking clamp using spring elasticity, characterized in that the projection is automatically returned to secure the notch plate to the clamp. The method of claim 2, The spring case 400, An end in the direction of the first lock pin hole is blocked, and an end in the direction of the second lock pin hole is self-locking clamp using a spring elasticity, characterized in that the second projection is open to be inserted into the interior. The method according to claim 1 or 2, The notch plate 100, Self-locking clamp using spring elasticity, characterized in that to form at least one force 140 in the longitudinal direction or longitudinal direction or diagonal direction. The method of claim 1, Self-locking clamp using a spring elasticity, characterized in that to configure the foreign matter blocking portion 350 formed to prevent the foreign matter is introduced into the spring case on any one side of the lock pin (300). The method according to claim 1 or 2, The shape of the spring case 400, Self-locking clamp using spring elasticity characterized in that the semi-circular or square.

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